Time Zone Converter

Convert times between different time zones around the world with our easy-to-use time zone calculator.

Time to Convert

Time

Date

Time Zones

From Time Zone

To Time Zone

Notes:

This calculator automatically detects your local time zone
Time zones observe Daylight Saving Time differently, which is accounted for in our calculations
The International Date Line may cause date changes when converting across time zones
Some locations change their time zone policies occasionally, so always verify critical time conversions
Times are displayed in 24-hour format to avoid AM/PM confusion

Understanding Time Zones and Conversions

What Are Time Zones?

Time zones are regions of the globe that observe a uniform standard time for legal, commercial, and social purposes. Time zones tend to follow the boundaries of countries and their subdivisions because it is convenient for areas in close commercial or other communication to keep the same time:

Earth is divided into 24 primary time zones, each roughly 15 degrees of longitude wide
Each time zone is ideally one hour apart from its neighbors
The reference point for all time zones is Coordinated Universal Time (UTC)
Some time zones use half-hour or quarter-hour offsets from UTC
Political boundaries often create irregularly shaped time zones that don't follow longitude lines exactly

Example: Converting 2:00 PM in New York to Tokyo time

Identify the time zones: New York is in Eastern Time (UTC-5 or UTC-4 during DST)
Tokyo is in Japan Standard Time (UTC+9 with no DST)
Calculate the difference: 14 hours ahead during standard time
2:00 PM in New York = 4:00 AM the next day in Tokyo
Account for DST if applicable (time difference becomes 13 hours when New York observes DST)

The History and Development of Time Zones

Prior to the late 19th century, time was a local matter. Each city or region set their clocks according to local solar time, resulting in thousands of different local times around the world. The expansion of railway transportation and telecommunications created a need for standardized time:

Before Time Zones

Each town kept its own local time based on solar observations
Noon was typically when the sun reached its highest point
Adjacent towns could have time differences of several minutes
Travel schedules were difficult to coordinate across regions
Telegraph operators had to maintain conversion tables

The Birth of Standardized Time

Sir Sandford Fleming proposed worldwide time zones in 1879
The International Meridian Conference of 1884 established Greenwich as the Prime Meridian
Railways were early adopters of standardized time
By 1900, most developed countries had adopted standard time zones
The concept of Universal Time (later UTC) was established as a reference point

Key Developments in Time Standardization

Year	Development	Significance
1840s	Great Western Railway (UK) adopts London time	First standardized railway time
1883	U.S. and Canadian railroads adopt standard time zones	Created four time zones across North America
1884	International Meridian Conference	Established Greenwich as Prime Meridian
1918	Standard Time Act (U.S.)	Legally established U.S. time zones
1960s	Introduction of Coordinated Universal Time (UTC)	Replaced Greenwich Mean Time as the global reference
1972	Introduction of leap seconds	Keeps UTC synchronized with Earth's rotation

How Time Zone Calculations Work

Understanding the mathematics and conventions behind time zone conversions helps ensure accurate time translation across the globe:

The Mathematics of Time Zones

Basic Formula for Time Zone Conversion:

Local Time = UTC + Local Offset

To convert between time zones:

Time in Zone B = Time in Zone A + (Zone B offset - Zone A offset)

Example:

Los Angeles (UTC-8) to London (UTC+0)
3:00 PM in LA = 3:00 PM + (0 - (-8)) = 3:00 PM + 8 = 11:00 PM in London

Key Time Zone Concepts

UTC (Coordinated Universal Time): The primary time standard by which the world regulates clocks
GMT (Greenwich Mean Time): Historical standard, now used as the UK time zone name in winter
Offset notation: Expressed as UTC+/- hours (e.g., UTC+1, UTC-5)
International Date Line: Roughly follows 180° longitude, marks date change
DST (Daylight Saving Time): Seasonal time adjustment advancing clocks, typically by 1 hour

Handling Date Changes in Time Zone Conversions

When converting across time zones, especially those that cross the International Date Line, date changes must be considered:

Moving eastward across the International Date Line: Subtract one calendar day
Moving westward across the International Date Line: Add one calendar day
When converting from a time zone to another where the local time passes midnight, the date changes
Time zones ahead of UTC (+) may be on the next day compared to zones behind UTC (-)
Some meetings and events need to specify both time and date for zones with large differences

Daylight Saving Time Complexities

Daylight Saving Time (DST) adds a layer of complexity to time zone calculations. Not all regions observe DST, and those that do may start and end it on different dates:

DST Observation Worldwide

About 40% of countries worldwide use DST
Most of Africa and Asia do not observe DST
Europe generally changes on the last Sundays of March and October
The U.S. and Canada change on the second Sunday in March and first Sunday in November
Australia (where observed) changes on the first Sunday in October and first Sunday in April
Southern Hemisphere seasons are reversed, so their DST period is opposite to Northern Hemisphere

DST Conversion Challenges

Non-existent time: When clocks spring forward, some times don't exist (e.g., 2:30 AM during the 2 AM → 3 AM jump)
Ambiguous time: When clocks fall back, some times occur twice (e.g., 1:30 AM occurs twice during the 2 AM → 1 AM change)
Policy changes: Countries can change their DST policies with little notice
Historical variations: DST start/end dates have changed over time
Regional variations: Some regions within countries may not observe DST (e.g., Arizona in the U.S.)

Example: DST Impact on Time Difference

The time difference between Los Angeles and London changes throughout the year due to different DST schedules:

Period	Los Angeles Status	London Status	Time Difference
January 1 - March (2nd Sunday)	Standard (UTC-8)	Standard (UTC+0)	8 hours
March (2nd Sunday) - March (last Sunday)	DST (UTC-7)	Standard (UTC+0)	7 hours
March (last Sunday) - October (last Sunday)	DST (UTC-7)	DST (UTC+1)	8 hours
October (last Sunday) - November (1st Sunday)	DST (UTC-7)	Standard (UTC+0)	7 hours
November (1st Sunday) - December 31	Standard (UTC-8)	Standard (UTC+0)	8 hours

Practical Applications of Time Zone Knowledge

International Business

Scheduling multinational team meetings
Planning conference calls across time zones
Setting customer service hours for global coverage
Coordinating software releases across markets
Setting deadlines for international collaborations
Managing shift handovers for 24/7 operations

Travel Planning

Understanding flight arrival times
Calculating jet lag impact
Planning international connection times
Scheduling transportation at destinations
Confirming hotel check-in/check-out times
Adjusting activities for local business hours

Communications & Entertainment

Watching live international sports events
Participating in global online gaming
Scheduling international webcasts
Planning calls to family overseas
Timing social media posts for different markets
Catching live streaming premieres worldwide

Best Practices for Working Across Time Zones

Use 24-hour format for clarity in international communications (e.g., "15:00" rather than "3:00 PM")
Specify the time zone either by name (e.g., "Eastern Time") or by UTC offset (e.g., "UTC-5")
Include the date when scheduling across zones that cross midnight
Use UTC as a neutral reference point for critical operations
Add multiple time zones to your digital calendar for quick reference
Consider using world clocks in your workspace if working with teams globally
Be aware of DST changes that might affect meeting times

Specialized Time Zone Information

Unusual Time Zones

India (UTC+5:30): Uses a half-hour offset for the entire country
Nepal (UTC+5:45): One of the few places using a quarter-hour offset
Chatham Islands, NZ (UTC+12:45): Uses a three-quarter hour offset
Line Islands, Kiribati (UTC+14): The farthest ahead time zone in the world
Baker Island, U.S. (UTC-12): The farthest behind time zone
North Korea: Created its own time zone (Pyongyang Time, UTC+8:30) in 2015, then reverted to UTC+9 in 2018

Countries That Span Multiple Time Zones

Russia: 11 time zones (most of any country)
United States: 6 time zones (including territories)
Canada: 6 time zones
Australia: 5 time zones (including territories)
Brazil: 4 time zones
Indonesia: 3 time zones spread across islands
Mexico: 3 time zones with varying DST policies
France: 12 time zones (including overseas territories)

Major Cities and Their Time Zones

City	Standard Time	DST Observed?	Time Zone Name
New York, USA	UTC-5	Yes	Eastern Time (ET)
London, UK	UTC+0	Yes	Greenwich Mean Time (GMT)/British Summer Time (BST)
Tokyo, Japan	UTC+9	No	Japan Standard Time (JST)
Sydney, Australia	UTC+10	Yes	Australian Eastern Standard Time (AEST)
Dubai, UAE	UTC+4	No	Gulf Standard Time (GST)
Los Angeles, USA	UTC-8	Yes	Pacific Time (PT)
New Delhi, India	UTC+5:30	No	Indian Standard Time (IST)
Moscow, Russia	UTC+3	No	Moscow Standard Time (MSK)

Time Zone Technology and Programming

Programming With Time Zones

Handling time zones in software development requires specialized knowledge and libraries:

JavaScript Example:

// Convert a date to a specific time zone
const date = new Date('2023-01-15T10:00:00Z');

// Format in user's local time zone
const localTime = date.toLocaleString();

// Format in a specific time zone
const options = {
  timeZone: 'America/New_York',
  hour12: false,
  year: 'numeric',
  month: 'numeric',
  day: 'numeric',
  hour: 'numeric',
  minute: 'numeric'
};
const nyTime = date.toLocaleString('en-US', options);

Python Example:

from datetime import datetime
import pytz

# Create a UTC datetime
utc_time = datetime(2023, 1, 15, 10, 0, 0, 
                   tzinfo=pytz.UTC)

# Convert to Tokyo time
tokyo_tz = pytz.timezone('Asia/Tokyo')
tokyo_time = utc_time.astimezone(tokyo_tz)

# Format the time
formatted = tokyo_time.strftime(
    '%Y-%m-%d %H:%M:%S %Z%z')

Common Time Zone Databases and Libraries

IANA Time Zone Database (also called tz or zoneinfo) - The standard reference for time zone data
Moment.js and Luxon - JavaScript libraries for date/time handling with timezone support
Joda-Time and java.time - Java libraries with robust time zone handling
pytz and dateutil - Python libraries for time zone manipulations

Time Zone Converter